Erik E. Kostandyan completed his Ph.D. program in Industrial Engineering at Western Michigan University, 2010. He has a Master's Degree in Industrial Engineering and Systems Management from American University of Armenia. His primary research areas of interest are Wind Turbines Reliability, Fatigue Reliability and Degradation Modeling, Electrical Components Reliability, Accelerated Testing Procedures, Reliability Test Configurations, Statistical Models in Reliability, Advanced Systems Simulation and Modeling. Since 2006 he has been studying different set-ups' for reliability tests.

Optimum Failure Truncated Testing Strategies

Erik Kostandyan

Erik E. Kostandyan completed his Ph.D. program in Industrial Engineering at Western Michigan University, 2010. He has a Master's Degree in Industrial Engineering and Systems Management from American University of Armenia. His primary research areas of interest are Wind Turbines Reliability, Fatigue Reliability and Degradation Modeling, Electrical Components Reliability, Accelerated Testing ...read more

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Companies use specialized testing laboratories to perform the tests, where the capacity of the test stations is limited. This is a major restriction for reliability tests. Different testing strategies will vary in cost and time, so an optimum strategy for the reliability test would be desirable, to obtain the list expensive and fastest results. In this presentation, findings and summary are presented for the optimum testing strategy determination, assuming components under consideration are mechanical and non-repairable.

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